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Scientific Program
34th International Conference on Dental, will be organized around the theme “ Dental Innovation and Excellence: Transforming Oral Healthcare Through Research and Technology”
Dental 2026 is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Dental 2026
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Cosmetic and Aesthetic Dentistry has transformed modern dental practice by combining clinical expertise with artistic precision to improve both the appearance and function of patients' smiles. This rapidly advancing specialty encompasses procedures such as teeth whitening, veneers, smile makeovers, direct and indirect restorations, dental bonding, aesthetic contouring, and minimally invasive cosmetic treatments. With growing patient awareness and increasing demand for personalized smile enhancement, clinicians continue to adopt innovative materials, digital planning tools, and evidence-based treatment protocols that deliver highly predictable and natural-looking outcomes. Advancements in adhesive dentistry, ceramic restorations, digital smile design, and CAD/CAM technologies have further revolutionized aesthetic procedures, allowing practitioners to achieve exceptional precision while preserving healthy tooth structure.
This scientific session invites dentists, prosthodontists, cosmetic specialists, researchers, academicians, and industry professionals to discuss emerging trends, innovative clinical techniques, and interdisciplinary approaches in aesthetic dental care. Topics include smile design, esthetic restorative materials, minimally invasive procedures, facial esthetics, digital workflows, patient-centered treatment planning, and long-term clinical outcomes. Participants will gain valuable insights into contemporary challenges, technological advancements, and future directions that continue to redefine cosmetic dentistry and improve patient satisfaction across diverse clinical settingsPrecision Dentistry – Personalized Care integrates individualized approaches to oral health management, emphasizing tailored treatments that consider patient-specific anatomical, genetic, and lifestyle factors. Modern diagnostic tools such as intraoral scanners, 3D imaging, and digital workflow technologies enable clinicians to design customized interventions for optimal outcomes. Personalized care encompasses minimally invasive procedures, targeted preventive strategies, and adaptive treatment planning to address unique dental needs. By combining genomic data, biomarker analysis, and real-time clinical assessments, precision dentistry ensures accurate diagnosis, effective treatment delivery, and reduced complications. Patient-specific materials and prosthetics further enhance treatment success. This approach improves patient satisfaction, reduces treatment time, and elevates overall oral health. The integration of precision dentistry in clinical practice aligns with broader healthcare trends, promoting predictive, preventive, and proactive care models. As technologies evolve, personalized dentistry is set to redefine treatment standards, ensuring outcomes are increasingly efficient, safe, and aligned with individual patient needs, supporting the next generation of oral healthcare solutions.
AI in Dentistry – Predictive Diagnostics leverages artificial intelligence, machine learning, and data analytics to enhance clinical decision-making, diagnosis, and treatment planning. Algorithms analyze radiographs, CBCT scans, patient history, and biomarker data to detect caries, periodontal disease, oral lesions, and structural anomalies with high accuracy. Predictive modeling supports early intervention, risk assessment, and personalized treatment strategies, improving outcomes and reducing complications. AI integration streamlines workflow, automates documentation, and assists in treatment simulations, including orthodontic aligner planning, implant placement, and restorative procedures. Real-time decision support systems enable adaptive treatment recommendations based on evolving patient data. AI also facilitates patient engagement through predictive oral health assessments, virtual coaching, and outcome visualization. By combining clinical expertise with intelligent algorithms, AI-driven diagnostics enhances efficiency, accuracy, and consistency in dental practice. Continuous advancements in neural networks, deep learning, and big data analytics position AI as a transformative tool, reshaping preventive, restorative, and surgical dentistry.
Orthodontics and Dentofacial Orthopedics is a dynamic specialty focused on diagnosing, preventing, and correcting dental and skeletal malocclusions to improve oral function, facial aesthetics, and overall quality of life. Continuous innovations in orthodontic appliances, digital imaging, biomechanical principles, and treatment planning have significantly enhanced patient outcomes while reducing treatment duration and improving comfort. Modern orthodontics integrates advanced diagnostic technologies such as three-dimensional imaging, digital models, and artificial intelligence to provide individualized treatment strategies for patients of all age groups. Early intervention, growth modification, and interdisciplinary collaboration have become increasingly important in achieving optimal functional and esthetic results.
This session provides an international platform for orthodontists, maxillofacial surgeons, researchers, educators, and dental professionals to exchange knowledge on contemporary orthodontic techniques, clinical research, digital innovations, and complex case management. Discussions will focus on skeletal discrepancies, orthodontic biomechanics, accelerated tooth movement, interdisciplinary treatment planning, retention strategies, craniofacial development, and emerging technologies shaping the future of orthodontic care. Participants will explore evidence-based practices and innovative solutions that contribute to improved treatment efficiency and long-term patient outcomes.
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Clear aligner therapy has revolutionized orthodontic treatment by offering a highly aesthetic, comfortable, and digitally driven alternative to conventional fixed appliances. Advances in intraoral scanning, three-dimensional treatment planning, computer-aided design, and additive manufacturing have transformed orthodontic workflows and enabled highly customized treatment solutions. Digital orthodontics integrates artificial intelligence, virtual simulations, cloud-based collaboration, and predictive treatment planning to enhance clinical accuracy and patient satisfaction. These innovations have expanded treatment possibilities while improving communication between clinicians, laboratories, and patients throughout every stage of orthodontic care.
This scientific session explores recent developments in clear aligner systems, digital workflows, treatment planning, biomechanics, and clinical applications for both simple and complex malocclusions. Experts will discuss digital impressions, aligner materials, attachments, interdisciplinary treatment, remote monitoring, treatment predictability, and future technological innovations. Researchers, clinicians, orthodontists, and industry leaders are invited to share scientific evidence, clinical experiences, and novel approaches that continue to shape the evolution of digital orthodontics and improve patient-centered dental care worldwide.
Endodontics focuses on the prevention, diagnosis, and treatment of diseases affecting the dental pulp and periapical tissues while preserving natural teeth whenever possible. Recent advances in imaging technologies, rotary instrumentation, irrigation systems, microscopic dentistry, and bioceramic materials have significantly improved the success rates of root canal therapy. Regenerative endodontics has emerged as a transformative field that utilizes stem cells, tissue engineering, growth factors, and biologically active scaffolds to restore the vitality and function of damaged pulp tissues. These developments are reshaping conventional endodontic practice and opening new opportunities for biologically based dental therapies.
This scientific session provides a platform for endodontists, researchers, educators, clinicians, and industry experts to present cutting-edge research, innovative treatment strategies, and evidence-based clinical practices. Key topics include regenerative procedures, vital pulp therapy, apexification, root canal disinfection, bioceramic sealers, microscopic endodontics, artificial intelligence in diagnosis, and management of complex endodontic cases. The session encourages interdisciplinary collaboration and scientific discussion aimed at advancing reg enerative technologies and improving long-term outcomes in endodontic care.
Oral and Maxillofacial Surgery is a highly specialized branch of dentistry dedicated to the diagnosis, surgical treatment, and rehabilitation of diseases, injuries, and congenital or acquired defects affecting the oral cavity, jaws, face, and associated structures. This specialty encompasses a wide range of procedures including dentoalveolar surgery, facial trauma management, corrective jaw surgery, dental implant placement, pathology, temporomandibular joint disorders, and reconstructive surgery. Continuous advancements in digital imaging, three-dimensional surgical planning, navigation systems, robotic-assisted procedures, and biomaterials have significantly enhanced surgical precision, patient safety, and postoperative recovery. Modern oral surgery increasingly emphasizes minimally invasive techniques, personalized treatment planning, and multidisciplinary collaboration to optimize both functional and aesthetic outcomes.
This scientific session provides an international platform for oral and maxillofacial surgeons, dentists, researchers, academicians, and healthcare professionals to present innovative research, advanced surgical techniques, and complex clinical case studies. Discussions will focus on facial reconstruction, trauma management, orthognathic surgery, implant surgery, tissue engineering, digital surgical workflows, postoperative care, and future innovations in maxillofacial surgery. Participants will gain valuable insights into emerging technologies, evidence-based surgical practices, and interdisciplinary approaches that continue to advance patient care and improve surgical outcomes.
Pediatric and Adolescent Dentistry is dedicated to promoting optimal oral health from infancy through adolescence while addressing the unique dental needs of growing children and teenagers. This specialty emphasizes prevention, early diagnosis, minimally invasive treatments, behavior management, growth monitoring, and comprehensive care for patients with special healthcare needs. Advances in preventive dentistry, minimally invasive restorative techniques, digital diagnostics, and patient-centered care have significantly improved clinical outcomes while creating positive dental experiences for young patients. Early intervention plays a critical role in reducing the burden of oral diseases and establishing lifelong healthy oral habits.
This session brings together pediatric dentists, orthodontists, researchers, educators, and public health professionals to explore current developments in child oral healthcare, preventive strategies, restorative procedures, trauma management, sedation techniques, developmental anomalies, and interdisciplinary treatment planning. Discussions will also highlight emerging technologies, evidence-based clinical practices, parental education, and innovative approaches that enhance patient cooperation, improve treatment success, and contribute to better oral health outcomes for children and adolescents worldwide.
Oral Medicine and Oral Pathology play a fundamental role in the diagnosis, prevention, and management of diseases affecting the oral and maxillofacial region. These disciplines bridge dentistry and medicine by focusing on oral manifestations of systemic diseases, potentially malignant disorders, autoimmune conditions, infectious diseases, salivary gland disorders, and complex oral lesions. Rapid advancements in molecular diagnostics, digital pathology, artificial intelligence, biomarker discovery, and precision medicine have strengthened diagnostic accuracy and improved clinical decision-making. Early detection and multidisciplinary collaboration remain essential for successful patient management and improved healthcare outcomes.
This scientific session invites oral physicians, pathologists, clinicians, researchers, oncologists, and healthcare professionals to discuss recent discoveries, diagnostic technologies, clinical case studies, and evidence-based management strategies. Key topics include oral potentially malignant disorders, oral infections, salivary gland diseases, biopsy techniques, digital pathology, molecular diagnostics, oral manifestations of systemic diseases, and advances in precision diagnostics. Participants will gain valuable insights into current research and innovative clinical approaches that support early diagnosis and comprehensive patient care.
Oral cancer remains one of the most significant global public health challenges, with early detection playing a decisive role in improving survival rates and patient quality of life. Advances in screening technologies, molecular biomarkers, imaging modalities, genomics, artificial intelligence, and minimally invasive diagnostic techniques have transformed the early identification and management of oral malignancies. Comprehensive treatment strategies involving surgery, radiation therapy, chemotherapy, targeted therapies, immunotherapy, and rehabilitation continue to evolve through multidisciplinary collaboration and ongoing clinical research.
This session provides a collaborative platform for oncologists, oral surgeons, oral medicine specialists, pathologists, dentists, researchers, and healthcare professionals to discuss current advances in oral oncology. Topics include early screening programs, risk assessment, precancerous lesions, molecular diagnostics, precision medicine, reconstructive surgery, rehabilitation, survivorship care, and emerging therapeutic approaches. Participants will explore innovative research findings and evidence-based clinical practices that contribute to earlier diagnosis, more effective treatment, and improved long-term outcomes for patients affected by oral cancer.
Digital Dentistry has transformed modern dental practice by integrating advanced digital technologies into diagnosis, treatment planning, restoration design, manufacturing, and patient communication. CAD/CAM systems, intraoral scanners, digital impressions, virtual articulators, three-dimensional printing, and cloud-based workflows have significantly improved precision, efficiency, and patient satisfaction across multiple dental specialties. The integration of artificial intelligence, automation, and digital manufacturing has further accelerated innovation, enabling clinicians to deliver highly personalized, minimally invasive, and predictable dental treatments with greater clinical accuracy.
This scientific session welcomes dentists, prosthodontists, orthodontists, laboratory professionals, researchers, educators, and industry experts to present the latest developments in digital dentistry and computer-aided technologies. Discussions will include digital workflow optimization, CAD/CAM restorations, intraoral scanning, virtual smile design, digital implant planning, laboratory automation, artificial intelligence, and future innovations shaping dental practice. Participants will gain valuable knowledge on emerging digital solutions that improve clinical efficiency, treatment quality, and patient-centered care in contemporary dentistry.
Artificial Intelligence (AI) is revolutionizing dentistry by enhancing diagnostic accuracy, treatment planning, clinical decision-making, and patient management. AI-powered technologies, including machine learning, deep learning, computer vision, and predictive analytics, are transforming every aspect of dental practice, from radiographic interpretation and caries detection to orthodontic planning and implant placement. Digital innovations such as cloud-based platforms, virtual consultations, robotic-assisted procedures, and automated workflows are improving clinical efficiency while reducing treatment errors and enhancing patient experiences. As digital healthcare continues to evolve, AI is becoming an indispensable tool for personalized, evidence-based dental care.
This scientific session offers an international platform for dentists, researchers, academicians, software developers, engineers, and healthcare professionals to explore the latest developments in artificial intelligence and digital transformation. Discussions will focus on AI-assisted diagnostics, intelligent imaging systems, predictive treatment planning, robotics, digital patient records, cybersecurity, ethical considerations, and future applications of AI in oral healthcare. Participants will gain valuable insights into innovative technologies that are reshaping modern dentistry and driving the next generation of clinical excellence.
Dental radiology is fundamental to accurate diagnosis, treatment planning, and long-term patient management across all dental specialties. The introduction of Cone Beam Computed Tomography (CBCT), digital radiography, and advanced imaging software has significantly improved visualization of dental and maxillofacial structures while minimizing radiation exposure. Three-dimensional imaging provides clinicians with exceptional diagnostic precision for implant planning, endodontics, orthodontics, oral surgery, pathology, and temporomandibular joint evaluation. Continuous technological improvements are enabling earlier disease detection, more predictable treatment outcomes, and safer clinical procedures.
This session invites radiologists, dentists, oral surgeons, orthodontists, endodontists, researchers, and imaging specialists to discuss recent advancements in dental imaging technologies and diagnostic applications. Topics include CBCT interpretation, artificial intelligence in radiology, digital image processing, radiation safety, diagnostic protocols, virtual treatment planning, and emerging imaging modalities. Participants will exchange knowledge on evidence-based imaging practices and innovative diagnostic solutions that continue to enhance patient safety, clinical precision, and interdisciplinary collaboration.
Laser Dentistry has emerged as one of the most innovative approaches in modern oral healthcare, offering minimally invasive treatment options with greater precision, reduced discomfort, and faster healing. Dental lasers are increasingly utilized in soft tissue surgery, periodontal therapy, endodontics, implantology, cavity preparation, teeth whitening, and oral lesion management. Their ability to minimize bleeding, reduce postoperative pain, decrease bacterial contamination, and preserve healthy tissues has made laser-assisted procedures an integral part of contemporary dental practice. Ongoing technological advancements continue to expand the clinical applications of lasers across multiple dental specialties.
This scientific session provides a platform for clinicians, researchers, educators, and industry experts to explore cutting-edge developments in laser-assisted dental care and minimally invasive treatment techniques. Discussions will include laser physics, clinical protocols, soft and hard tissue applications, patient safety, pain management, regenerative procedures, digital integration, and evidence-based outcomes. Participants will gain practical insights into advanced laser technologies that improve clinical efficiency, patient comfort, and long-term treatment success.
Three-dimensional (3D) printing and Digital Smile Design (DSD) have revolutionized modern dentistry by enabling highly accurate diagnosis, treatment planning, and customized restorative solutions. Digital workflows integrate intraoral scanning, facial analysis, computer-aided design, and additive manufacturing to create personalized dental restorations, surgical guides, orthodontic appliances, and implant-supported prostheses. These technologies improve communication between clinicians, laboratories, and patients while reducing treatment time, increasing precision, and enhancing esthetic outcomes. As digital technologies continue to evolve, 3D printing and smile design are becoming indispensable components of comprehensive dental care.
This scientific session provides an international forum for prosthodontists, orthodontists, implantologists, restorative dentists, researchers, laboratory technicians, and digital technology experts to discuss recent advancements in digital smile planning and additive manufacturing. Topics include virtual smile analysi, CAD/CAM s integration, facially driven treatment planning, customized prosthetics, surgical guide fabrication, digital workflows, esthetic rehabilitation, and future innovations in digital dentistry. Participants will gain valuable knowledge on emerging technologies that are redefining restorative dentistry and delivering highly personalized patient care.
Effective pain control is essential for delivering safe, comfortable, and successful dental care. Advances in local anesthesia, conscious sedation, pharmacological therapies, and patient monitoring have significantly improved procedural safety and patient experience. Modern pain management strategies emphasize individualized treatment planning, minimally invasive techniques, anxiety reduction, and rapid postoperative recovery. Emerging technologies and evidence-based protocols continue to optimize patient comfort while minimizing complications associated with dental procedures.
This session brings together dental anesthesiologists, oral surgeons, general dentists, researchers, educators, and healthcare professionals to discuss current developments in anesthesia, sedation, and pain management. Topics include local anesthetic innovations, intravenous sedation, pediatric anesthesia, emergency management, pharmacological advances, patient safety protocols, anxiety management, postoperative pain control, and clinical best practices. Participants will gain practical insights into modern anesthetic techniques that enhance procedural success and improve overall patient care.
